Delves into protein synthesis, emphasizing recombinant expression and the production of proteins using plasmids and bacteria.
Explores genetic circuits design in synthetic biology, from regulatory mechanisms to plasmid construction.
Explores DNA replication, RNA transcription, and protein translation, emphasizing their crucial roles in cellular functions.
Explores polymer folding, hydrophobic interactions, and DNA organization, highlighting their biological importance.
Delves into protein polymers, discussing co-evolution, diffusion, protein structures, and experimental methods.
Explores RNA switches design and applications, focusing on exploiting nature's design principles to build new biomolecular components and networks.
Explains protein synthesis, translation, and the central dogma of molecular biology.
Explores RNA functions in transcription, translation, and gene regulation, including defense mechanisms and viral infections.
Covers the basics of polymer biophysics, including DNA conformation modeling and the Boltzmann principle, emphasizing the exponential decay of correlations between segments.
Explores the design and applications of RNA switches, focusing on regulatory RNA principles and engineered biomolecular components.
